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Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Menkes disease
is an X-linked recessive disorder of copper metabolism. Deficient quantity or functional activity of a molecule involved in intracellular copper transport is believed to represent the basic defect. We applied an in vitro copper binding assay (copper blotting) to tissue proteins from
Menkes
patients and controls to evaluate differences in copper-binding. Proteins were separated by
SDS
-PAGE, electrotransferred to nitrocellulose, and probed with 67CuCl2. Copper-binding polypeptides were visualized by autoradiography. No major differences were observed between a
Menkes
patient and control subjects in copper blots of post-mortem liver, kidney, or brain--tissues affected clinically by the disturbance of copper metabolism in
Menkes disease
. We also applied the copper blotting technique to fibroblast proteins from an affected female in whom the gene responsible for
Menkes disease
is interrupted by a chromosomal translocation, and detected no differences in copper-binding proteins relative to normal controls. These experiments suggest that the gene product defective in
Menkes disease
is not detectable in copper blots, either because normal tissue levels are below the limits of detection of this method, or because the molecule involved does not bind copper under these conditions.
...
PMID:Application of a copper blotting method to the study of Menkes disease. 769 Nov 34
Three copper-resistant variants of cultured Chinese hamster ovary (CHO) cells were isolated and each was shown to accumulate less intracellular copper than the parental cells when grown in copper-supplemented media. The reduced copper accumulation was related to enhanced copper efflux. As cultured cells from patients with
Menkes disease
(mutations in
MNK
; ATP7A gene) accumulate copper, probably due to defective copper efflux, we investigated the possible role of the
MNK
gene in the molecular basis of copper resistance. We found increased
MNK
mRNA and
MNK
protein in all three resistant variants. The
MNK
protein, which has not been previously demonstrated experimentally in mammalian cells, was observed to have an apparent molecular weight of 178 kDa on
SDS
gels. The degree of increase in
MNK
mRNA and protein correlated well with the level of copper resistance and extent of copper efflux. By Southern blot and FISH analysis we determined that the molecular basis for overexpression of
MNK
was genomic amplification of the
MNK
gene. These data, combined with the clinical and cellular phenotype in
Menkes disease
, provide strong evidence that the
MNK
protein is involved in transmembrane copper efflux, and demonstrate a new system of gene amplification in mammalian cells.
...
PMID:Gene amplification of the Menkes (MNK; ATP7A) P-type ATPase gene of CHO cells is associated with copper resistance and enhanced copper efflux. 858 89
